DS922 Datasheet, PDF(41/77 Page) Xilinx, Inc – DC and AC Switching Characteristics

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DS922 Datasheet, PDF (41/77 Pages) Xilinx, Inc – DC and AC Switching Characteristics

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Kintex UltraScale+ FPGAs Data Sheet: DC and AC Switching Characteristics

Device Pin-to-Pin Input Parameter Guidelines

The pin-to-pin numbers in Table 42 and Table 43 are based on the clock root placement in the center of

the device. The actual pin-to-pin values will vary if the root placement selected is different. Consult the

Vivado Design Suite timing report for the actual pin-to-pin values.

Table 42: Global Clock Input Setup and Hold With 3.3V HD I/O without MMCM

Symbol

Description

Device

Speed Grade and

VCCINT Operating Voltages

0.90V

0.85V

0.72V

Units

-3

-2

-1

-2

-1

Input Setup and Hold Time Relative to Global Clock Input Signal using SSTL15 Standard.(1)(2)(3)

TPSFD_KU3P

TPHFD_KU3P

TPSFD_KU5P

TPHFD_KU5P

TPSFD_KU9P

TPHFD_KU9P

TPSFD_KU11P

TPHFD_KU11P

TPSFD_KU13P

TPHFD_KU13P

TPSFD_KU15P

TPHFD_KU15P

Global clock input and Setup

â0.69 â0.69 â0.69 â0.85 â0.85

input flip-flop (or latch)

without MMCM.

Hold

XCKU3P

1.88

2.09

2.20

2.60

2.82

Setup

â0.69 â0.69 â0.69 â0.85 â0.85

XCKU5P

Hold

1.88

2.09

2.20

2.60

2.82

Setup

â1.06 â1.06 â1.06 â1.06 â1.06

XCKU9P

Hold

2.40

2.59

2.71

3.47

3.54

Setup

â0.72 â0.72 â0.72 â0.89 â0.89

XCKU11P

Hold

1.91

2.14

2.25

2.64

2.88

Setup

â1.07 â1.07 â1.07 â1.24 â1.24

XCKU13P

Hold

2.39

2.74

2.94

3.53

3.91

Setup

â0.79 â0.79 â0.79 â0.98 â0.98

XCKU15P

Hold

2.08

2.31

2.43

2.87

3.11

Notes:

1. Setup and hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured

relative to the global clock input signal using the slowest process, slowest temperature, and slowest voltage. Hold time is

measured relative to the global clock input signal using the fastest process, fastest temperature, and fastest voltage.

2. This table lists representative values where one global clock input drives one vertical clock line in each accessible column,

and where all accessible I/O and CLB flip-flops are clocked by the global clock net in a single SLR.

3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

DS922 (v1.1) May 9, 2016

Advance Product Specification

www.xilinx.com

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